CN113952783B - Conveying device for vermicelli - Google Patents

Abstract

The utility model relates to a conveyor for bean noodles belongs to bean noodles processing technology field, and conveyor for bean noodles includes the discharging pipe, still including sliding the water receiving tank that sets up in discharging pipe export below and be used for ordering about water receiving tank intermittent type reciprocating sliding's drive assembly, the ejection of compact direction of the slip direction perpendicular to bean noodles of water receiving tank, the swing of water receiving tank top is provided with two filters, the filter is used for accepting the bean noodles that drop from the discharging pipe, the array orientation of filter is on a parallel with the slip direction of water receiving tank, the swing axis of filter is on a parallel with the slip direction of water receiving tank, be provided with on the water receiving tank and be used for ordering about filter intermittent type reciprocating swinging assembly, the filter is kept away from one side of discharging pipe and is offered the opening that is used for supplying the bean noodles to shift out, be provided with on the filter and be used for adjusting the regulating part that the opening opened and close. This application has the filter effect who improves the vermicelli, reduces simultaneously and glues advantage together between the vermicelli.

Description

Conveying device for vermicelli

Technical Field

The application relates to the technical field of vermicelli processing, in particular to a conveying device for vermicelli.

Background

The vermicelli is a filiform or strip-shaped vermicelli product made from sweet potato and potato raw materials. The production process of the vermicelli comprises the processes of making the starch, making the flour, making the vermicelli, cooling and drying.

In the related art, for example, chinese patent publication No. CN213111552U discloses a continuous vacuum pumping and conveying device for wet vermicelli, which comprises a bottom frame, a support arranged on one side of the upper part of the bottom frame, and a vacuum pump arranged on the other side of the upper part of the bottom frame; the upper part of the bracket is fixedly connected with a negative pressure storage tank; the bottom of the tank body of the negative pressure storage tank is communicated with a discharge branch pipe, and the discharge branch pipe is provided with a discharge control valve; the top of the tank body of the negative pressure storage tank is communicated with an air exhaust branch pipe, the air exhaust branch pipe is provided with an air exhaust control valve, an air exhaust port of the vacuum pump is communicated with the air exhaust branch pipe, the tank top of the negative pressure storage tank is also communicated with a pressure relief pipe, and the pressure relief pipe is provided with a pressure relief control valve; the upper part of the outer wall of the tank body of the negative pressure storage tank is communicated with a material pumping branch pipe, and a material pumping control valve is installed on the material pumping branch pipe. The vacuum pump is used for pumping the negative pressure storage tank to a negative pressure state, the material pumping control valve is opened, vermicelli in the cooling pool enters the negative pressure storage tank, when the vermicelli reaches a certain amount, the pressure relief control valve and the discharging control valve are opened, and the vermicelli is conveyed to the filtering part through the discharging branch pipe and then dried.

In view of the above-mentioned related technologies, the inventor found that, because the wet vermicelli contains more water, the wet vermicelli is conveyed to the filter plate for uniform filtration, the filtration effect is not good, and meanwhile, the vermicelli is stacked together on the filter plate and is easily stuck between the vermicelli.

Disclosure of Invention

For the filter effect who improves the vermicelli, reduce between the vermicelli glutinous together, this application provides a conveyor for vermicelli.

The application provides a conveyor for bean noodles adopts following technical scheme:

the utility model provides a conveyor for bean noodles, includes the discharging pipe, still includes the water receiving tank that slides and set up in discharging pipe export below and be used for ordering about water receiving tank intermittent type reciprocating sliding's drive assembly, the slip direction perpendicular to bean noodles's of water receiving tank ejection of compact direction, the swing of water receiving tank top is provided with two filters, the filter is used for accepting the bean noodles that drop from the discharging pipe, the array orientation of filter is on a parallel with the slip direction of water receiving tank, the swing axis of filter is on a parallel with the slip direction of water receiving tank, be provided with the swing subassembly that is used for ordering about filter intermittent type reciprocating swing on the water receiving tank, the filter is kept away from one side of discharging pipe and is offered the opening that is used for supplying the bean noodles to shift out, be provided with the adjusting part that is used for adjusting the opening and close on the filter.

By adopting the technical scheme, the vermicelli output from the discharge pipe drops into the filter plate, and the filter plate is driven to intermittently and reciprocally swing through the swing assembly, so that the vermicelli moves on the filter plate, the filtering effect is improved, and convenience is brought to the movement of the vermicelli due to the intermittent swing of the filter plate; meanwhile, the vermicelli is not easy to stick together, which is beneficial to improving the quality of vermicelli products; the water receiving box is driven to move by the driving assembly, the water receiving box drives the filter plates to move, when the vermicelli on one filter plate reaches a certain amount, the other filter plate is moved to the position below the discharging pipe to receive the vermicelli, so that the vermicelli is continuously filtered, and the filtering efficiency is improved; move through water receiving case intermittent type, when the relative discharging pipe stop movement of water receiving case, accept the bean noodles and facilitate with the bean noodles that discharges for the filter, adjust the opening through adjusting part and open, make the bean noodles after filtering the completion shift out from the opening part.

Preferably, the swing subassembly includes that the slip sets up the bracing piece on the water receiving tank and is used for driving the impeller of bracing piece intermittent type reciprocating sliding, the impeller sets up on the water receiving tank, the bracing piece is used for driving the reciprocating swing of filter intermittent type, the slip direction of bracing piece sets up along vertical direction, the one end that the water receiving tank was kept away from to the bracing piece slides in the one side that the discharging pipe was kept away from to the filter.

By adopting the technical scheme, the pushing piece drives the supporting rod to intermittently and reciprocally slide, so that the supporting rod drives the filtering plate to intermittently and reciprocally swing, the filtering plate swings to shake vermicelli, and the filtering effect of the vermicelli is improved; the filter plate intermittently swings, and when the filter plate stops swinging relative to the water receiving box, the vermicelli is moved out from the opening to provide convenience.

Preferably, the pushing member comprises a cylinder rotatably arranged on the water receiving tank and a first motor for driving the cylinder to rotate, the rotation axis of the cylinder is parallel to the sliding direction of the supporting rod, the supporting rod is in sliding connection with the end face of the cylinder, which is close to one side of the supporting rod, the end face of the cylinder, which is close to the supporting rod, comprises a plane and an inclined plane, and when the supporting rod slides relatively on the inclined plane, the supporting rod slides towards the direction far away from or close to the cylinder; when the support rod relatively slides on the plane, the distance between the support rod and the water receiving tank is kept unchanged, and the filter plate inclines downwards towards the direction far away from the discharge pipe.

By adopting the technical scheme, the first motor is started, the first motor drives the cylinder to rotate, so that the supporting rod and the end face of the cylinder slide relatively, when the supporting rod slides relatively on the inclined plane, the cylinder drives the supporting rod to slide towards the direction far away from or close to the water receiving tank, so that the supporting rod drives one side, far away from the discharging pipe, of the filter plate to rotate towards the direction close to or far away from the discharging pipe, the reciprocating swing of the filter plate is realized, the filtering effect of the vermicelli is improved, and the possibility that the vermicelli is adhered together is reduced; when the bracing piece relatively slided on the plane for the relative water receiving tank stop the swing of filter, the filter is the tilt state simultaneously, shifts out the wobbling possibility of in-process filter with reducing the bean noodles, shifts out for the bean noodles on the filter and facilitates.

Preferably, the driving assembly comprises a pushing rod arranged on the water receiving tank and a reciprocating piece used for driving the pushing rod to intermittently slide in a reciprocating mode, the pushing rod is used for pushing the water receiving tank to intermittently slide in a reciprocating mode, and the sliding direction of the pushing rod is parallel to the sliding direction of the water receiving tank.

By adopting the technical scheme, the pushing rod is driven to intermittently reciprocate by the reciprocating piece, so that the pushing rod drives the water receiving tank to intermittently reciprocate, the reciprocating movement of the water receiving tank is favorable for the filter plate to alternately receive vermicelli, and convenience is brought to continuous filtration of the vermicelli; the intermittent type of water receiving tank removes, reduces the filter and goes up the powder strip and move out the gliding possibility of in-process water receiving tank drive filter, facilitates for shifting out of powder strip.

Preferably, the reciprocating part is including being used for driving the sliding plate of catch bar intermittent type reciprocating sliding and order about the electric putter of sliding plate reciprocating sliding, the slip direction perpendicular to water receiving tank of sliding plate, the catch bar slides in the sliding plate, it is used for supplying the gliding cavity of catch bar to have seted up in the sliding plate, the cavity runs through the sliding plate along catch bar length direction's both sides, set up the chute towards water receiving tank slope on the sliding plate, chute both ends intercommunication has the dashpot, the length direction of dashpot is on a parallel with the slip direction of sliding plate, chute and dashpot all communicate with the cavity, be provided with the limit post on the catch bar, it slides in chute and dashpot to limit the post relative slip.

By adopting the technical scheme, the electric push rod is started, the electric push rod drives the sliding plate to reciprocate, the sliding plate reciprocates to drive the pushing rod to slide, when the limiting column on the pushing rod slides relatively in the chute, the sliding plate drives the pushing rod to slide towards the direction close to or far away from the sliding plate, so that the water receiving box is driven to slide in a reciprocating manner, convenience is provided for the filter plate to alternately receive vermicelli, the vermicelli filtering effect is improved, and meanwhile, the vermicelli filtering efficiency is improved; when the limiting column slides in the buffer slot, the pushing rod and the discharging pipe are kept relatively fixed, so that the position of the filtering plate and the position of the discharging pipe are relatively fixed, the intermittent sliding of the water receiving box is realized, and convenience is brought to the shifting-out of the vermicelli.

Preferably, the adjusting assembly comprises an adjusting door rotatably arranged on the filter plate and an adjusting piece used for driving the adjusting door to rotate, the adjusting door is used for opening and closing the opening, and the rotating axis of the adjusting door is parallel to the swinging axis of the filter plate.

Through adopting above-mentioned technical scheme, drive about the regulation door through the regulating part and rotate to open or seal the opening, be favorable to the filtration and the shifting out of vermicelli.

Preferably, the adjusting door is provided with a rotating shaft, the adjusting piece comprises a worm rotatably arranged on the filter plate, a second motor used for driving the worm to rotate and a timing controller used for controlling the second motor to work, a worm wheel is sleeved on the rotating shaft and meshed with the worm, and the timing controller is connected with the second motor.

By adopting the technical scheme, when the vermicelli needs to be moved out, the timing controller controls the second motor to drive the worm to rotate, and the worm drives the worm wheel to rotate, so that the adjusting door opens the opening, and the vermicelli is convenient to move out; when the vermicelli is filtered, the timing controller controls the second motor to drive the worm to rotate, and the worm drives the worm wheel to rotate, so that the adjusting door closes the opening, and the possibility that the vermicelli falls from the opening is reduced; due to the self-locking function between the worm wheel and the worm, the adjusting door can be conveniently rotated and fixed to a required position.

Preferably, a vibrator is arranged below the filter plate.

By adopting the technical scheme, the arrangement of the vibrator is beneficial to vibrating the vermicelli, the filtering effect of the vermicelli is improved, and the possibility of sticking the vermicelli together is reduced; and simultaneously, the vermicelli is favorable to be removed from the filter plate.

Preferably, the water receiving tank is communicated with a corrugated pipe for water in the water receiving tank to flow out.

Through adopting above-mentioned technical scheme, the bellows is favorable to going out with the log raft in the water receiving case, facilitates for the slip of water receiving case simultaneously.

In summary, the present application includes at least one of the following beneficial technical effects:

vermicelli output from the discharge pipe falls into the filter plate, and the filter plate is driven to intermittently and reciprocally swing through the swing assembly, so that the vermicelli moves on the filter plate, the filtering effect is improved, and convenience is brought to the movement of the vermicelli due to the intermittent swing of the filter plate; meanwhile, the vermicelli is not easy to stick together, which is beneficial to improving the quality of vermicelli products;

the first motor drives the cylinder to rotate, so that the supporting rod and the end face of the cylinder slide relatively, when the supporting rod slides relatively on the inclined plane, the cylinder drives the supporting rod to slide towards the direction far away from or close to the water receiving tank, so that the supporting rod drives one side of the filter plate far away from the discharging pipe to rotate towards the direction close to or far away from the discharging pipe, the reciprocating swing of the filter plate is realized, and the filtering effect of the vermicelli is improved;

electric putter orders about slide plate reciprocating motion, and slide plate reciprocating motion drives the catch bar and slides, and when limiting post on the catch bar relatively slided in the chute, the slide plate drove the direction that the catch bar orientation was close to or kept away from the slide plate and slides to drive water receiving tank reciprocating sliding, accept the vermicelli in turn for the filter and facilitate, improve the filtration efficiency of vermicelli when improving the vermicelli filter effect.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a partial structural sectional view of an embodiment of the present application.

Fig. 4 is an enlarged view of a portion B in fig. 3.

Fig. 5 is an enlarged view of a portion C in fig. 3.

Fig. 6 is a partial structural diagram of another view angle according to an embodiment of the present application.

Description of reference numerals: 1. a discharge pipe; 2. a water receiving tank; 3. a drive assembly; 31. a push rod; 32. a reciprocating member; 321. a slide plate; 322. an electric push rod; 4. a filter plate; 41. filtering a plate; 42. a vertical plate; 5. a swing assembly; 51. a support bar; 52. a pusher member; 521. a cylinder; 5211. an end face; 52111. a plane; 52112. a bevel; 522. a first motor; 6. an opening; 7. an adjustment assembly; 71. an adjustment gate; 72. an adjustment member; 721. a worm; 722. a second motor; 723. a timing controller; 724. a worm gear; 8. a cavity; 9. a chute; 10. a buffer tank; 11. defining a column; 12. a rotating shaft; 13. a first vibrator; 14. a bellows; 15. a base plate; 16. mounting a plate; 17. a swing shaft; 18. a first guide ring; 19. a bump; 20. a groove; 21. a support plate; 22. an annular groove; 23. connecting columns; 24. a guide block; 25. a guide groove; 26. a second guide ring; 27. an arc-shaped slot; 28. a fixing plate; 29 a support; 30. a material conveying plate; 33. a baffle plate; 34. a second vibrator; 35. a case.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses conveyor for vermicelli. Referring to fig. 1, the conveying device for vermicelli includes a discharging pipe 1 and a bottom plate 15, the bottom plate 15 is located below an outlet of the discharging pipe 1, a water receiving tank 2 is slidably arranged on the bottom plate 15, the sliding direction of the water receiving tank 2 is perpendicular to the discharging direction of the vermicelli, a driving component 3 for driving the water receiving tank 2 to intermittently and reciprocally slide is arranged on the bottom plate 15, two filtering plates 4 are arranged above the water receiving tank 2 in a swinging mode, the filtering plates 4 are used for receiving the vermicelli dropped from the discharging pipe 1, the arrangement direction of the two filtering plates 4 is parallel to the sliding direction of the water receiving tank 2, the two filtering plates 4 are abutted with each other, the filtering plates 4 comprise filtering plates 41 with filtering holes and vertical plates 42 fixedly connected to four sides of the filtering plates 41, the diameters of the filtering holes in the filtering plates 41 are smaller than the diameters of the vermicelli, two mounting plates 16 are fixedly connected to the water receiving tank 2, the two mounting plates 16 are arranged along the sliding direction of the water receiving tank 2, swinging shafts 17 are rotatably arranged between the two mounting plates 16, the rotating axes of the swinging shafts 17 are parallel to the sliding direction of the water receiving tank 2, the swinging shafts 17 are respectively, openings 7 for driving the swinging components 41 to move out the opening and closing the opening of the swinging components 5 for adjusting the opening of the swinging components for opening of the swinging water receiving tank 6.

When the vermicelli is output from the discharge pipe 1, the vermicelli falls onto one of the filter plates 41, the vertical plate 42 limits the vermicelli, and the possibility that the vermicelli falls out of the filter plates 41 is reduced; after a certain time, when the required amount of vermicelli on the filter plate 41 reaches, the water receiving tank 2 is driven to move by the driving assembly 3, and the other filter plate 41 slides towards the direction close to the discharge pipe 1 so as to receive the vermicelli, so that the vermicelli is continuously filtered; in the moving process of the water receiving tank 2, the swinging component 5 drives the filter plate 41 to swing, so that the filtering effect of the vermicelli is improved; meanwhile, the possibility of sticking the vermicelli together is reduced, and the quality of vermicelli products is improved.

When the filter plate 41 with the vermicelli is moved to a required position, the other filter plate 41 is moved to the position below the discharge pipe 1 to receive the vermicelli, the water receiving tank 2 stops moving relative to the bottom plate 15, the filter plate 41 stops swinging relative to the water receiving tank 2, the opening 6 on the filter plate 4 with the vermicelli is opened through the adjusting component 7, the filtered vermicelli is moved out from the opening, and then the opening 6 is closed; at the moment, the vermicelli on the filter plate 41 below the discharge pipe 1 reaches the required amount, the driving assembly 3 drives the water receiving tank 2 to move back, the filter plate 41 for discharging the vermicelli moves towards the direction close to the discharge pipe 1, the filter plate 41 with the vermicelli is moved away from the lower part of the discharge pipe 1, the swinging assembly 5 drives the filter plate 41 to swing, the filtering effect of the vermicelli is improved, the reciprocating is realized, the vermicelli filtering effect is improved, and meanwhile, the vermicelli filtering efficiency is improved.

Referring to fig. 3 and 4, the swing assembly 5 includes a support rod 51 slidably disposed on the water receiving tank 2 and a pushing member 52 for driving the support rod 51 to intermittently slide in a reciprocating manner, the pushing member 52 is disposed on the water receiving tank 2, the support rod 51 is used for driving the filter plate 41 to intermittently swing in a reciprocating manner, the sliding direction of the support rod 51 is disposed along the vertical direction, the first guide ring 18 is fixedly connected to the side wall of the water receiving tank 2, and the support rod 51 is slidably sleeved in the first guide ring 18 so as to guide the sliding of the support rod 51; the end of the support rod 51 close to the filter plate 41 is rotatably connected with a projection 19, the rotation axis of the projection 19 is parallel to the sliding direction of the water receiving tank 2, the projection 19 is slidably connected with the outer wall of the end of the vertical plate 42 far away from the discharge pipe 1, the side wall of the vertical plate 42 is provided with a groove 20 in sliding fit with the projection 19, and the projection 19 is arranged to facilitate the rotation of the filter plate 41 when the support rod 51 slides.

Referring to fig. 3 and 4, a support plate 21 is fixedly connected to the outer wall of the water receiving tank 2, a pushing member 52 includes a first motor 522 fixedly connected to the support plate 21 and a cylinder 521 fixedly connected to an output end of the first motor 522, the cylinder 521 rotates on the outer wall of the water receiving tank 2, a rotation axis of the cylinder 521 is parallel to a sliding direction of the support rod 51, the cylinder 521 is located below the first guide ring 18, the support rod 51 is slidably connected to an end face 5211, close to the support rod 51, of the cylinder 521, the end face 5211, close to the support rod 51, of the cylinder 521 includes a flat face 52111 and an inclined face 52112, the inclined face 52112 inclines upward in a direction away from the flat face 52111, sliding grooves are formed in the flat face 52111 and the inclined face 52112, the two sliding grooves are communicated end to end and end to form an annular groove 22, a connecting rod 23 is fixedly connected to an end, close to the support rod 51, close to the cylinder 51, a sliding block is fixedly connected to an end, close to the cylinder 521, the sliding block slides relatively sliding block slides in the annular groove 22, the sliding block and the connecting rod 23 has a circular cross section, the annular groove 22 is T-shaped, the cross section of the annular groove 22 is T-shaped, so as to reduce the possibility that the sliding block falls off from the sliding block comes away from the water receiving tank 2; when the slide block slides relatively on the plane 52111, the distance between the support rod 51 and the water receiving tank 2 is kept constant, and the filter plate 41 is inclined downward in a direction away from the discharge pipe 1.

When the filter plate 41 moves to the lower part of the discharge pipe 1, the first motor 522 is started, the first motor 522 drives the cylinder 521 to rotate, and at the moment, the slide block is positioned at the intersection of the inclined surface 52112 and the plane 52111 and slides relatively towards the plane 52111, so that the distance between the support rod 51 and the water receiving tank 2 is kept unchanged, the filter plate 41 stops swinging relative to the water receiving tank 2, and meanwhile, the filter plate 41 inclines downwards towards the direction far away from the discharge pipe 1 so as to receive vermicelli; after the vermicelli on the filter plate 41 reaches a certain amount, the drive assembly 3 orders about the water receiving tank 2 and slides, the direction that the discharging pipe 1 was kept away from to the filter plate 41 orientation that will be equipped with the vermicelli removes, the slider was from plane 52111 relative slip to inclined plane 52112 this moment, thereby make the bracing piece 51 towards the direction slip of keeping away from water receiving tank 2, the bracing piece 51 drives the riser 42 orientation of keeping away from discharging pipe 1 one side and rotates near the direction of discharging pipe 1, when the slider was followed inclined plane 52112 orientation and is close to the direction relative slip of plane 52111, the bracing piece 51 slides near the direction of water receiving tank 2, the bracing piece 51 drives the riser 42 orientation of keeping away from discharging pipe 1 one side and rotates far away from the direction of discharging pipe 1, thereby realize the reciprocal swing of filter plate 41, improve the filter effect of vermicelli, reduce the possibility that the vermicelli glues together.

After the filter plate 41 with the vermicelli is moved to a required position, another filter plate 41 is moved to the position below the discharge pipe 1 to receive the vermicelli, the water receiving tank 2 stops moving relative to the bottom plate 15, at the moment, the sliding block slides relatively to the plane 52111 from the inclined plane 52112, so that the distance between the supporting rod 51 and the water receiving tank 2 is kept unchanged, the filter plate 41 stops swinging relative to the water receiving tank 2, the vermicelli on the filter plate 41 far away from the discharge pipe 1 is discharged conveniently, meanwhile, the vermicelli is received by another filter plate 41 conveniently, the reciprocating is realized, the intermittent reciprocating swinging of the filter plate 41 is realized, the filtering efficiency is improved while the filtering effect is improved.

Referring to fig. 1 and 2, the driving assembly 3 includes a push rod 31 fixedly connected to the water receiving tank 2 and a reciprocating member 32 for driving the push rod 31 to intermittently slide in a reciprocating manner, the push rod 31 is used for pushing the water receiving tank 2 to intermittently slide in a reciprocating manner, a sliding direction of the push rod 31 is parallel to a sliding direction of the water receiving tank 2, and the push rod 31 is located on one side of the water receiving tank 2 close to the first motor 522 (refer to fig. 3).

Referring to fig. 1 and fig. 2, the reciprocating member 32 includes a sliding plate 321 for driving the pushing rod 31 to intermittently slide in a reciprocating manner and an electric push rod 322 for driving the sliding plate 321 to slide in a reciprocating manner, the sliding plate 321 slides on the bottom plate 15, a sliding direction of the sliding plate 321 is perpendicular to a sliding direction of the water receiving tank 2, the electric push rod 322 is fixedly connected to the bottom plate 15, an extending direction of the electric push rod 322 is parallel to the sliding direction of the sliding plate 321, the electric push rod 322 is located on a side of the sliding plate 321 away from the discharging pipe 1, an output end of the electric push rod 322 is fixedly connected to the sliding plate 321, a guide block 24 is fixedly connected to a bottom wall of the sliding plate 321, a guide groove 25 in sliding fit with the guide block 24 is formed in the bottom plate 15, in this embodiment, the cross section of the guide block 24 is T-shaped, and the sliding fit of the guide block 24 and the guide groove 25 is beneficial to improving the sliding effect of the sliding plate 321.

Referring to fig. 1 and 2, one end of the push rod 31, which is far away from the water receiving tank 2, slides in the sliding plate 321, the second guide ring 26 is fixedly connected to the bottom plate 15, the second guide ring 26 is located on one side of the sliding plate 321, which is close to the water receiving tank 2, the push rod 31 is slidably sleeved in the second guide ring 26, and the second guide ring 26 guides the sliding of the push rod 31; seted up in the sliding plate 321 and being used for supplying the gliding cavity 8 of catch bar 31, cavity 8 runs through sliding plate 321 along the both sides of catch bar 31 length direction, set up the chute 9 towards the slope of water receiving tank 2 on the sliding plate 321, the one end orientation that electric putter 322 was kept away from to chute 9 inclines near the direction of water receiving tank 2, chute 9 both ends all communicate there is buffer slot 10, the length direction of buffer slot 10 is on a parallel with the slip direction of sliding plate 321, the junction of chute 9 and buffer slot 10 is provided with arc 27, chute 9, buffer slot 10 and arc 27 all communicate with cavity 8, fixed connection has limited post 11 on the catch bar 31, it slides in chute 9 and buffer slot 10 to prescribe a limit to post 11 relative slip, prescribe a limit to post 11 and be located the middle part of catch bar 31, arc 27 be provided with and do benefit to prescribea limit to post 11 from chute 9 relative slip to in buffer slot 10 or from buffer slot 10 relative slip to chute 9 in.

When the filter plate 41 close to one side of the sliding plate 321 is located below the discharge pipe 1 to receive the vermicelli, at this time, the limiting column 11 is located at the arc-shaped groove 27 close to one side of the water receiving tank 2, the electric push rod 322 is started, the electric push rod 322 drives the sliding plate 321 to slide towards the direction close to the electric push rod 322, the buffer tank 10 slides towards the direction close to the limiting column 11, so that the limiting column 11 moves into the buffer tank 10, when the end part, away from the chute 9, of the buffer tank 10 close to one side of the water receiving tank 2 abuts against the limiting column 11, the electric push rod 322 pushes the sliding plate 321 to slide towards the direction away from the electric push rod 322, so that the buffer tank 10 slides towards the opposite direction, at this time, the limiting column 11 is still located in the buffer tank 10, so that the push rod 31 stops moving relative to the bottom plate 15, so that the filter plate 41 close to one side of the sliding plate 321 receives the vermicelli; the sliding plate 321 continues to slide towards the direction far away from the electric push rod 322, so that the chute 9 slides towards the direction close to the limiting column 11, after the vermicelli on the filter plate 41 close to one side of the sliding plate 321 reaches a certain amount, the chute 9 moves to the limiting column 11, the sliding plate 321 drives the limiting column 11 to move towards the direction far away from the water receiving tank 2, so that the push rod 31 drives the water receiving tank 2 to move towards the direction close to the sliding plate 321, the filter plate 41 far away from one side of the sliding plate 321 is moved to the lower side of the discharge pipe 1, at the moment, the sliding plate 321 drives the limiting column 11 to slide into the buffer groove 10 far away from one side of the sliding plate 321, when the end part, far away from the chute 9, of the buffer groove 10 far away from one side of the water receiving tank 2 abuts against the limiting column 11, the electric push rod 322 pulls the sliding plate 321 to slide towards the direction close to the electric push rod 322, at the limiting column 11 is still located in the buffer groove 10, the water receiving tank 2 stops moving relative to facilitate the movement of the vermicelli on the filter plate 41 near one side of the sliding plate 321, the filter plate 41, the vermicelli far away from one side of the sliding plate 321 is moved out, and the vermicelli is received, thereby improving the filtering efficiency and simultaneously.

The vermicelli that arrives a quantitative on the filter plate 41 of keeping away from slide plate 321 one side, be close to the vermicelli on the filter plate 41 of slide plate 321 one side and shift out the back, the one end that the water receiving tank 2 was kept away from to chute 9 this moment removes to limited post 11 departments, slide plate 321 drives and limits post 11 orientation and slides near the direction of water receiving tank 2, thereby promote the direction removal of water receiving tank 2 orientation keeping away from slide plate 321, water receiving tank 2 drives the direction removal of keeping away from discharge pipe 1 of filter plate 41 orientation of slide plate 321 one side of keeping away from, the filter plate 41 that will be close to slide plate 321 one side removes to discharge pipe 1 below, accept the vermicelli, with this is reciprocal, thereby realize the intermittent reciprocating motion of water receiving tank 2.

Referring to fig. 3 and 5, the adjusting assembly 7 includes an adjusting door 71 rotatably disposed on the vertical plate 42 and an adjusting member 72 for driving the adjusting door 71 to rotate, the adjusting door 71 is used for opening and closing the opening 6, a rotating shaft 12 is fixedly connected to a bottom wall of the adjusting door 71, the rotating shaft 12 rotates on the vertical plate 42, and a rotation axis of the rotating shaft 12 is parallel to a swing axis of the filter plate 41.

Referring to fig. 1 and 5, the fixed plate 28 is fixedly connected to the outer wall of the vertical plate 42, the adjusting element 72 includes a worm 721 rotatably disposed on the fixed plate 28, a second motor 722 fixedly connected to the fixed plate 28, and a timing controller 723 for controlling the second motor 722 to operate, the timing controller 723 is fixed to the bottom plate 15, an output end of the second motor 722 is fixedly connected to the worm 721, a worm wheel 724 is fixedly disposed on the rotating shaft 12, the worm wheel 724 is engaged with the worm 721, and the timing controller 723 is electrically connected to the second motor 722.

Referring to fig. 1 and 3, a support 29 is fixedly connected to a bottom plate 15, two material conveying plates 30 are arranged on the support 29, baffle plates 33 are fixedly connected to two sides of each material conveying plate 30, the material conveying plates 30 are located on one side, away from a discharging pipe 1, of a water receiving tank 2, the material conveying plates 30 are in one-to-one correspondence with filter plates 41, the material conveying plates 30 are used for being connected with an adjusting door 71, a space between the material conveying plates 30 and the water receiving tank 2 can be used for sliding of the water receiving tank 2, the discharging pipe 1 is located between the two material conveying plates 30, one sides, away from the discharging pipe 1, of the two material conveying plates 30 are communicated, and second vibrators 34 are arranged on bottom walls of the two material conveying plates 30 so that filtered vermicelli can be output.

After the pushing rod 31 pushes the water receiving tank 2 to a required position, one end of the filter plate 41 far away from the discharging pipe 1 is kept inclined downwards, and the filter plate 41 below the discharging pipe 1 receives vermicelli; after the vermicelli on the filter plate 41 far away from the discharge pipe 1 is filtered, the timing controller 723 controls the corresponding second motor 722 to drive the worm 721 to rotate, the worm 721 drives the worm wheel 724 to rotate, so that the worm wheel 724 drives the rotating shaft 12 to rotate, the adjusting door 71 is rotated to be connected with the feeding plate 30, the opening 6 is opened, the vermicelli moves along the filter plate 41 from the opening 6 to the corresponding feeding plate 30, the second vibrator 34 vibrates the feeding plate 30, so that the vermicelli drops from the feeding plate 30 to a drying position, after the vermicelli is moved out, the timing controller 723 controls the corresponding second motor 722 to drive the worm 721 to rotate, and the adjusting door 71 closes the opening 6. The worm wheel 724 is engaged with the worm 721 to have a self-locking function, so that the adjusting door 71 can be rotated and fixed to a desired position.

Referring to fig. 3, a case 35 is fixedly mounted below each filter plate 41 near the discharge pipe 1, a first vibrator 13 is mounted in the case 35, and a filter hole of the filter plate 41 is shielded by one side of the case 35 near the filter plate 41, so that the influence of water on the filter plate 41 on the first vibrator 13 is reduced.

The first vibrator 13 vibrates the filter plate 41, so that the filter effect of the vermicelli is improved, the vermicelli is moved out conveniently, and the possibility that the vermicelli is adhered together is reduced; the case 35 is provided to protect the first vibrator 13, so that the service life of the first vibrator 13 is prolonged.

Referring to fig. 6, a corrugated tube 14 for allowing water in the water receiving tank 2 to flow out is communicated with a side of the water receiving tank 2 away from the sliding plate 321. Water in the water receiving tank 2 flows out through the corrugated pipe 14, and meanwhile the corrugated pipe 14 is stretched or compressed in the moving process of the water receiving tank 2, so that convenience is brought to the reciprocating movement of the water receiving tank 2.

The implementation principle of the embodiment of the application is as follows:

when the vermicelli discharged from the discharging pipe 1 falls onto the filter plate 41 close to one side of the sliding plate 321, the first motor 522 is started, the first motor 522 drives the cylinder 521 to rotate, at this time, the sliding block is located at the intersection of the inclined surface 52112 and the plane 52111 and slides relatively towards the plane 52111, the limiting column 11 is located at the arc-shaped groove 27 close to one side of the water receiving tank 2, so that the filter plate 41 stops swinging relative to the water receiving tank 2, meanwhile, the filter plate 41 inclines downwards towards the direction away from the discharging pipe 1, the electric push rod 322 is started, the electric push rod 322 drives the sliding plate 321 to slide towards the direction close to the electric push rod 322, so that the limiting column 11 moves into the water receiving buffer tank 10, when the end part of the buffer tank 10 close to one side of the water receiving tank 2, far away from the chute 9, abuts against the limiting column 11, the electric push rod 322 pushes the sliding plate 321 to slide towards the direction far away from the electric push rod 322, the limiting column 11 is still located in the buffer tank 10, so that the water receiving tank 2 stops moving relative to facilitate the vermicelli close to the filter plate 41 close to one side of the sliding plate 321 to receive the vermicelli.

When the vermicelli on the filter plate 41 close to one side of the sliding plate 321 reaches a certain amount, the sliding plate 321 continues to slide towards the direction away from the electric push rod 322, so that the chute 9 moves to the limiting column 11, at the moment, the sliding block relatively slides from the plane 52111 to the inclined plane 52112, the sliding plate 321 drives the limiting column 11 to move towards the direction away from the water receiving tank 2, so that the filter plate 41 close to one side of the sliding plate 321 slides towards the direction close to the discharge pipe 1, and the filter plate 41 close to one side of the sliding plate 321 slides towards the direction away from the discharge pipe 1; the slider relatively slides to the inclined plane 52112 from plane 52111 for bracing piece 51 drives the riser 42 orientation of keeping away from discharging pipe 1 one side and is close to the direction rotation of discharging pipe 1, when the slider is from inclined plane 52112 orientation near the direction relative slip of plane 52111, bracing piece 51 drives the riser 42 orientation of keeping away from discharging pipe 1 one side and rotates far away from the direction of discharging pipe 1, thereby realize the reciprocating swing of filter plate 41, to shaking the vermicelli that is close to on the filter plate 41 of sliding plate 321 one side, improve the filter effect, reduce the possibility that the vermicelli is stuck together.

When the filter plate 41 far away from the sliding plate 321 moves to the lower part of the discharge pipe 1, the sliding plate 321 drives the limiting column 11 to slide into the buffer groove 10 far away from the sliding plate 321, at this time, the sliding block slides relatively to the plane 52111 from the inclined plane 52112, the limiting column 11 is located in the buffer groove 10, so that the water receiving tank 2 stops moving, at this time, the two filter plates 41 stop swinging relative to the water receiving tank 2, the filter plate 41 far away from the sliding plate 321 receives the vermicelli, the timing controller 723 controls the second motor on the vertical plate 42 near the sliding plate 321 to drive the worm 721 to rotate, the worm 721 drives the worm wheel 724 to rotate, so that the adjusting door 71 rotates to be connected with the corresponding conveying plate 30, the vermicelli moves from the opening 6 to the corresponding conveying plate 30 along the filter plate 41, and falls from the conveying plate 30 to the drying position; when the end of the buffer slot 10 away from the inclined slot 9 of the receptacle 2 abuts against the limiting post 11, the electric push rod 322 pulls the sliding plate 321 to slide toward the direction close to the electric push rod 322, and at this time, the receptacle 2 still remains stationary relative to the bottom plate 15, and at this time, the sliding block still slides relative to the plane 52111.

When the required amount of the vermicelli on the filter plate 41 on the side far away from the sliding plate 321 is reached and the movement of the vermicelli on the filter plate 41 on the side near the sliding plate 321 is completed, the timing controller 723 controls the corresponding second motor 722 to drive the worm 721 to rotate, so that the adjusting door 71 closes the opening 6; at this time, one end of the chute 9, which is far away from the water receiving tank 2, moves to the limiting column 11, the sliding block is located at the intersection of the inclined surface 52112 and the plane 52111 and slides relatively toward the inclined surface 52112, the sliding plate 321 pushes the limiting column 11 to slide toward the direction close to the water receiving tank 2, so that the filter plate 41, which is close to one side of the sliding plate 321, moves toward the direction close to the discharge pipe 1, so as to receive the vermicelli, the filter plate 41, which is far away from one side of the sliding plate 321, moves out toward the direction far away from the discharge pipe 1, the sliding block slides onto the inclined surface 52111 relatively, the supporting rod 51 slides toward the direction far away from the water receiving tank 2, when the sliding block slides from the inclined surface 52112 toward the direction close to the plane 52111, the supporting rod 51 drives the vertical plate 42, which is far away from one side of the discharge pipe 1, to rotate toward the direction far away from the discharge pipe 1, so as to realize the reciprocating swing of the filter plate 41, and shake the vermicelli on the side of the filter plate 321, thereby improving the filtering effect.

When the filter plate 41 close to one side of the sliding plate 321 moves to below the discharge pipe 1, the sliding block is located at the intersection of the inclined plane 52112 and the plane 52111 and slides towards the plane 52111, the limiting column 11 is located at the arc-shaped groove 27 close to one side of the water receiving tank 2, the filter plate 41 stops swinging relative to the water receiving tank 2, meanwhile, the filter plate 41 tilts downwards towards the direction away from the discharge pipe 1, the water receiving tank 2 stops moving relative to the bottom plate 15, the timing controller 723 controls the second motor 722 on the vertical plate 42 far away from one side of the sliding plate 321, the second motor 722 drives the worm 721 to rotate, so that the adjusting door 71 rotates to be connected with the corresponding delivery plate 30, the strips of powder on the filter plate 41 far away from one side of the sliding plate 321 move from the opening 6 to the corresponding delivery plate 30 along the filter plate 41, and the strips of powder fall from the delivery plate 30 to the drying position; after the vermicelli is removed, the timing controller 723 controls the corresponding second motor 722 to drive the worm 721 to rotate, so that the adjusting door 71 closes the opening 6.

With this to reciprocate to realize water receiving tank 2 intermittent type reciprocating motion, two filter plates 41 filter the bean noodles in turn, and the intermittent reciprocal swing of filter plate 41 shakes the bean noodles, thereby improves filtration efficiency when improving the filter effect, and timing controller 723 regularly controls two second motors 722 work respectively, so that the bean noodles shifts out.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a conveyor for vermicelli, includes discharging pipe (1), its characterized in that: the automatic bean vermicelli discharging machine is characterized by further comprising a water receiving box (2) arranged below an outlet of the discharging pipe (1) in a sliding mode and a driving assembly (3) used for driving the water receiving box (2) to intermittently slide in a reciprocating mode, the sliding direction of the water receiving box (2) is perpendicular to the discharging direction of vermicelli, two filter plates (4) are arranged above the water receiving box (2) in a swinging mode, the filter plates (4) are used for bearing the vermicelli falling from the discharging pipe (1), the arrangement direction of the filter plates (4) is parallel to the sliding direction of the water receiving box (2), the swing axis of filter (4) is on a parallel with the sliding direction of water receiving tank (2), be provided with on water receiving tank (2) and be used for driving about filter (4) intermittent type reciprocating swing's swing subassembly (5), opening (6) that are used for supplying the bean noodles to shift out are offered to one side that discharging pipe (1) was kept away from in filter (4), be provided with on filter (4) and be used for adjusting regulating part (7) that opening (6) opened and close.

2. The vermicelli conveying apparatus according to claim 1, wherein: the swinging component (5) comprises a supporting rod (51) arranged on the water receiving tank (2) in a sliding way and a pushing piece (52) used for driving the supporting rod (51) to slide in an intermittent reciprocating way, the pushing piece (52) is arranged on the water receiving tank (2), the supporting rod (51) is used for driving the filtering plate (4) to intermittently and reciprocally swing, the sliding direction of the supporting rod (51) is arranged along the vertical direction, one end of the supporting rod (51) far away from the water receiving tank (2) slides on one side of the filtering plate (4) far away from the discharge pipe (1), the pushing piece (52) comprises a cylinder (521) rotationally arranged on the water receiving tank (2) and a first motor (522) used for driving the cylinder (521) to rotate, the axis of rotation of the cylinder (521) being parallel to the sliding direction of the support bar (51), the supporting rod (51) is connected with the end surface (5211) of the cylinder (521) close to one side of the supporting rod (51) in a sliding way, the end surface (5211) of the cylinder (521) close to the support rod (51) comprises a plane (52111) and a bevel (52112), the ramp (52112) is inclined upwardly away from the plane (52111), when the supporting rod (51) slides relatively on the inclined surface (52112), the supporting rod (51) slides towards the direction far away from or close to the cylinder (521); when the support rod (51) slides relatively on the plane (52111), the distance between the support rod (51) and the water receiving tank (2) is kept unchanged, and the filter plate (4) inclines downwards towards the direction far away from the discharge pipe (1).

3. The vermicelli conveying apparatus according to claim 1, wherein: the driving assembly (3) comprises a pushing rod (31) arranged on the water receiving tank (2) and a reciprocating piece (32) used for driving the pushing rod (31) to intermittently and reciprocally slide, the pushing rod (31) is used for pushing the water receiving tank (2) to intermittently and reciprocally slide, and the sliding direction of the pushing rod (31) is parallel to that of the water receiving tank (2).

4. A vermicelli conveying apparatus according to claim 3, wherein: reciprocating member (32) including being used for driving push rod (31) intermittent type reciprocating sliding's slide plate (321) and driving slide plate (321) reciprocating sliding's electric putter (322), the slip direction perpendicular to water receiving tank (2)'s of slide plate (321) slip direction, push rod (31) slide in slide plate (321), it is used for supplying push rod (31) gliding cavity (8) to have seted up in slide plate (321), cavity (8) run through slide plate (321) along push rod (31) length direction's both sides, set up chute (9) towards water receiving tank (2) slope on slide plate (321), chute (9) both ends intercommunication has dashpot (10), the length direction of dashpot (10) is on a parallel with the slip direction of slide plate (321), chute (9) and dashpot (10) all communicate with cavity (8), set up limit post (11) on push rod (31), limit post (11) relative slip is in dashpot (9) and dashpot (10).

5. The vermicelli conveying apparatus according to claim 1, wherein: the adjusting assembly (7) comprises an adjusting door (71) rotatably arranged on the filter plate (4) and an adjusting piece (72) used for driving the adjusting door (71) to rotate, the adjusting door (71) is used for opening and closing the opening (6), and the rotating axis of the adjusting door (71) is parallel to the swinging axis of the filter plate (4).

6. The vermicelli conveying apparatus according to claim 5, wherein: the adjusting door (71) is provided with a rotating shaft (12), the adjusting piece (72) comprises a worm (721) rotatably arranged on the filter plate (4), a second motor (722) used for driving the worm (721) to rotate and a timing controller (723) used for controlling the second motor (722) to work, a worm wheel (724) is sleeved on the rotating shaft (12), the worm wheel (724) is meshed with the worm (721), and the timing controller (723) is connected with the second motor (722).

7. The vermicelli conveying device according to claim 1, wherein: a first vibrator (13) is arranged below the filter plate (4).

8. The vermicelli conveying device according to claim 1, wherein: the water receiving tank (2) is communicated with a corrugated pipe (14) for water in the water receiving tank (2) to flow out.

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